US11327383B2 - Display panel with light transmittance controlled by gate line and data line - Google Patents
Display panel with light transmittance controlled by gate line and data line Download PDFInfo
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- US11327383B2 US11327383B2 US16/303,358 US201716303358A US11327383B2 US 11327383 B2 US11327383 B2 US 11327383B2 US 201716303358 A US201716303358 A US 201716303358A US 11327383 B2 US11327383 B2 US 11327383B2
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- H01L27/02—Devices consisting of a plurality of semiconductor or other solid-state components formed in or on a common substrate including semiconductor components specially adapted for rectifying, oscillating, amplifying or switching and having at least one potential-jump barrier or surface barrier; including integrated passive circuit elements with at least one potential-jump barrier or surface barrier
- H01L27/12—Devices consisting of a plurality of semiconductor or other solid-state components formed in or on a common substrate including semiconductor components specially adapted for rectifying, oscillating, amplifying or switching and having at least one potential-jump barrier or surface barrier; including integrated passive circuit elements with at least one potential-jump barrier or surface barrier the substrate being other than a semiconductor body, e.g. an insulating body
- H01L27/1214—Devices consisting of a plurality of semiconductor or other solid-state components formed in or on a common substrate including semiconductor components specially adapted for rectifying, oscillating, amplifying or switching and having at least one potential-jump barrier or surface barrier; including integrated passive circuit elements with at least one potential-jump barrier or surface barrier the substrate being other than a semiconductor body, e.g. an insulating body comprising a plurality of TFTs formed on a non-semiconducting substrate, e.g. driving circuits for AMLCDs
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Definitions
- the present invention relates to display technology, more particularly, to a display panel having a light modulation region, a display apparatus, a method of modulating display contrast of the display panel, and a method of fabricating a display panel.
- Display apparatuses such as liquid crystal display (LCD) apparatuses and organic light-emitting diode (OLED) display apparatuses have been widely used.
- LCD and OLED display devices use thin film transistor (TFT) to control pixels in the display panel.
- TFT thin film transistor
- the present disclosure provides a display panel having an array of a plurality of subpixels, comprising a plurality of light modulators configured to modulate display contrast of the display panel, each of the plurality of light modulators is in a light modulation region configured to allow light transmitting through the display panel; wherein light transmittance in the light modulation region is controlled by a first gate line and a first data line for driving image display in a first subpixel of the plurality of subpixels.
- each of the plurality of light modulators comprises a first electrode, an electrochromic layer on the first electrode, and a second electrode on a side of the electrochromic layer distal to the first electrode.
- the display panel comprises a first thin film transistor in the light modulation region having a gate electrode coupled to the first gate line, a source electrode coupled to the first electrode, and a drain electrode coupled to ground.
- the first thin film transistor is a leaky transistor.
- the display panel comprises a second thin film transistor in the first subpixel comprising a gate electrode coupled to the first gate line, a source electrode coupled to the first data line, and a drain electrode coupled to a third electrode in the first subpixel.
- the second thin film transistor in the first subpixel further comprising an active layer; and the source electrode of the first thin film transistor is coupled to the active layer of the second thin film transistor.
- the third electrode in the first subpixel and the first electrode in the light modulation region are in a same layer and made of a same material.
- the display panel further comprises an organic light emitting layer on a side of the third electrode distal to the second thin film transistor; and a fourth electrode on a side of the organic light emitting layer distal to the third electrode; wherein the fourth electrode in the first subpixel and the second electrode in the light modulation region are in a same layer and made of a same material.
- the light modulation region is substantially non-overlapping with the plurality of subpixels.
- the first subpixel is a subpixel adjacent to the light modulation region.
- a number of the plurality of light modulators is substantially the same as a number of the plurality of subpixels.
- the display panel is a transparent display panel.
- the present disclosure provides a display apparatus comprising the display panel described herein or fabricated by a method described herein.
- the present disclosure provides a method of modulating display contrast of the display panel described herein or fabricated by a method described herein, comprising providing a first gate scanning signal to the first gate line and a first data signal to the first date line for driving image display in the first subpixel of the plurality of subpixels; and modulating the light transmittance in the light modulation region using the first gate scanning signal and the first data signal.
- each of the plurality of light modulators comprises a first electrode, an electrochromic layer on the first electrode, and a second electrode on a side of the electrochromic layer distal to the first electrode; and modulating the light transmittance comprises lowering the light transmittance in the light modulation region by applying to the first electrode a voltage signal derived from the first data signal.
- the display panel comprises a first thin film transistor in the light modulation region having a gate electrode coupled to the first gate line, a source electrode coupled to the first electrode, and a drain electrode coupled to ground, and a second thin film transistor in the first subpixel having a gate electrode coupled to the first gate line, a source electrode coupled to the first data line, and a drain electrode coupled to a third electrode in the first subpixel; the method further comprises providing the first gate scanning signal to the first gate line to turn on the second thin film transistor thereby allowing the first data signal to pass from the source electrode of the second thin film transistor to the drain electrode of the second thin film transistor for driving image display in the first subpixel; and providing the first gate scanning signal to the first gate line to turn on the first thin film transistor thereby allowing the first data signal to pass from the source electrode of the first thin film transistor to the drain electrode of the first thin film transistor.
- the first thin film transistor is a leaky transistor; and a voltage level of the voltage signal applied to the first electrode is lower than a voltage level of the first data signal.
- the present disclosure provides a method of fabricating a display panel having an array of a plurality of subpixels, comprising forming a plurality of light modulators configured to modulate display contrast of the display panel, each of the plurality of light modulators is formed in a light modulation region configured to allow light transmitting through the display panel; and forming a plurality of gate lines and forming a plurality of data lines for driving image display in the plurality of subpixels; wherein the plurality of light modulators, the plurality of gate lines, and the plurality of data lines are formed so that light transmittance in the light modulation region is controlled by a first gate line and a first data line for driving image display in a first subpixel of the plurality of subpixels.
- each of the plurality of light modulators is formed to comprise a first electrode, an electrochromic layer on the first electrode, and a second electrode on a side of the electrochromic layer distal to the first electrode; the method further comprises forming a first thin film transistor in the light modulation region having a gate electrode coupled to the first gate line, a source electrode coupled to the first electrode, and a drain electrode coupled to ground.
- the first thin film transistor is formed to have a leakage current such that a difference between a gray level of the light modulation region and a gray level of the first subpixel upon application of a first data signal through the first data line are substantially minimized over a range of data voltage levels.
- the method further comprises forming a second thin film transistor in the first subpixel having a gate electrode coupled to the first gate line, a source electrode coupled to the first data line, and a drain electrode coupled to a third electrode in the first subpixel.
- FIG. 1 is a schematic diagram illustrating a display panel having a light modulation region in some embodiments according to the present disclosure.
- FIG. 2 is a schematic diagram illustrating a display panel having a light modulation region in some embodiments according to the present disclosure.
- FIG. 3 is a schematic diagram illustrating a display panel having a light modulation region in some embodiments according to the present disclosure.
- FIG. 4 is a schematic diagram illustrating a display panel having a light modulation region in some embodiments according to the present disclosure.
- FIG. 5 is a schematic diagram illustrating a display panel having a light modulation region in some embodiments according to the present disclosure.
- FIG. 6 is a circuit diagram of a circuit for modulating display contrast of a display panel in some embodiments according to the present disclosure.
- FIG. 7 illustrates light transmittance in the light modulation region when the display panel is in an OFF state.
- FIG. 8 illustrates light transmittance in the light modulation region when the display panel is in an ON state.
- FIG. 9 illustrates gray levels of the light modulation region and the first subpixel upon application of a first data signal in a display panel in some embodiments according to the present disclosure.
- FIG. 10 illustrates gray levels of the light modulation region and the first subpixel upon application of a first data signal in a display panel in some embodiments according to the present disclosure.
- FIG. 11 illustrates gray levels of the light modulation region and the first subpixel upon application of a first data signal in a display panel in some embodiments according to the present disclosure.
- the display contrast deteriorates when the ambient light intensity is relatively high e.g., in an outdoor environment or when the display panel is a transparent display panel. This makes it difficult for the readers to view the displayed image. Readers may increase the brightness of the outdoor display panel in order to view the image display better. However, this leads to much higher power consumption.
- the present disclosure provides, inter alia, a display panel having a light modulation region, a display apparatus, a method of modulating display contrast of the display panel, and a method of fabricating a display panel that substantially obviate one or more of the problems due to limitations and disadvantages of the related art.
- the present disclosure provides a display panel having an array of a plurality of subpixels.
- the display panel includes a plurality of light modulators configured to modulate display contrast of the display panel.
- Each of the plurality of light modulators is in a light modulation region configured to allow light transmitting through the display panel.
- light transmittance in the light modulation region is controlled by a first gate line and a first data line for driving image display in a first subpixel of the plurality of subpixels.
- FIG. 1 is a schematic diagram illustrating a display panel having a light modulation region in some embodiments according to the present disclosure.
- the display panel includes a plurality of subpixels, e.g., subpixels Sp 1 , Sp 2 , Sp 3 , Sp 4 , Sp 10 , and a plurality of light modulators (e.g., light modulators M 1 , M 2 , M 3 , . . . , M 10 ) in a plurality of light modulation region (e.g., light modulation regions R 1 , R 2 , R 3 , . . . , R 10 ), respectively.
- the plurality of light modulators are configured to modulate display contrast of the display panel.
- each of the plurality of light modulation regions is configured to allow light transmitting through the display panel.
- each of the plurality of light modulation regions is a substantially transparent region that allows light (e.g., ambient light) transmitting through the display panel when the display panel is in an OFF state.
- the display panel is a transparent display panel that allows a viewer to see through the display panel, e.g., when the display panel is turned off.
- the display panel further includes a plurality of gate lines (e.g., gate lines GL 1 , GL 2 , and GL 3 ) and a plurality of data lines (e.g., data lines DL 1 , DL 2 , DL 3 , . . . , DL 6 ) for driving image display in the plurality of subpixels.
- a first gate line GL 1 and a first data line DL 1 are configured to drive image display in a first subpixel Sp 1
- the first gate line GL 1 and a second data line DL 2 are configured to drive image display in a second subpixel Sp 2 , and so on.
- Light transmittance in each of the plurality of light modulation regions are also controlled by one of the plurality of gate lines and one of the plurality of data lines for driving image display in one of the plurality of subpixels.
- the light transmittance in a first light modulation region R 1 is controlled by the first gate line GL 1 and the first data line DL 1 for driving image display in the first subpixel Sp 1
- the light transmittance in a second light modulation region R 2 is controlled by the first gate line GL 1 and the second data line DL 2 for driving image display in the second subpixel Sp 2 , and so on.
- a number of the plurality of light modulation regions is the same as a number of the plurality of subpixels in the display panel, e.g., each of the plurality of subpixels is associated with one of the plurality of light modulation regions.
- Each of the plurality of light modulation regions is disposed on a side of the corresponding subpixel of the plurality of subpixels.
- FIG. 2 is a schematic diagram illustrating a display panel having a light modulation region in some embodiments according to the present disclosure.
- the display panel includes a plurality of light modulators (M 1 , M 2 , M 3 , . . . , M 10 ) in a plurality of light modulation regions (R 1 , R 2 , R 3 , . . . , R 10 ).
- Each of the plurality of subpixels is associated with one of the plurality of light modulation regions.
- Each of the plurality of light modulation regions surrounds the corresponding subpixel of the plurality of subpixels.
- Light transmittance in each of the plurality of light modulation regions is controlled by one of the plurality of gate lines and one of the plurality of data lines for driving image display in one of the plurality of subpixels.
- the light transmittance in a first light modulation region R 1 is controlled by the first gate line GL 1 and the first data line DL 1 for driving image display in the first subpixel Sp 1
- the light transmittance in a second light modulation region R 2 is controlled by the first gate line GL 1 and the second data line DL 2 for driving image display in the second subpixel Sp 2 , and so on.
- FIG. 3 is a schematic diagram illustrating a display panel having a light modulation region in some embodiments according to the present disclosure.
- the display panel includes a plurality of light modulators (M 1 , M 2 ) in a plurality of light modulation regions (R 1 , R 2 ).
- Each of the plurality of light modulation regions (and each of the plurality of light modulators) is associated with on average four adjacent subpixels of the plurality of subpixels.
- Each of the plurality of light modulation regions surrounds the corresponding four adjacent subpixels of the plurality of subpixels.
- Light transmittance in each of the plurality of light modulation regions is controlled by one of the plurality of gate lines and one of the plurality of data lines for driving image display in one of the plurality of subpixels.
- the light transmittance in a first light modulation region R 1 is controlled by the first gate line GL 1 and the first data line DL for driving image display in the first subpixel Sp 1
- the light transmittance in a second light modulation region R 2 is controlled by the first gate line GL 1 and a third data line DL 3 for driving image display in a third subpixel Sp 3 .
- appropriate light modulators may be used for modulating the display contrast of the display panel and the light transmittance in the light modulation region.
- appropriate light modulators include electrochromic type light modulators, electro-optic type light modulators (e.g., liquid crystal), electromechanical type light modulators, reflective light modulators, a microelectromechanical system (MEMS), and other types of light modulators.
- the plurality of light modulators are electrochromic type light modulators.
- FIG. 4 is a schematic diagram illustrating a display panel having a light modulation region in some embodiments according to the present disclosure.
- a first light modulation region R 1 is disposed on a side of a first subpixel Sp 1 .
- the display panel in some embodiments includes a first light modulator M 1 in the first light modulation region R.
- the first light modulator M 1 includes a first electrode E 1 , an electrochromic layer EC on the first electrode E 1 , and a second electrode E 2 on a side of the electrochromic layer EC distal to the first electrode E 1 .
- an electrochromic material may be deposited by a plasma-enhanced chemical vapor deposition (PECVD) process.
- PECVD plasma-enhanced chemical vapor deposition
- the deposited electrochromic material layer is then patterned, e.g., by a lithographic process.
- Examples of appropriate electrochromic materials for making the electrochromic layer EC include tungsten oxide (e.g., W 2 O 5 ), a combination of tungsten oxide and nickel oxide (e.g., W 2 O 5 and NiO), niobium pentoxide, titanium oxide (e.g., TiO 3 ), cobalt oxide (CoO), a viologen electrochromic material or derivatives thereof, a metal-phthalocyanine electrochromic material or derivatives thereof (e.g., a lutetium-phthalocyanine electrochromic material or derivatives thereof), a polyaniline electrochromic material or derivatives thereof, a polypyrrole electrochromic material or derivatives thereof, a polythiophene electrochromic material or derivatives thereof, and a tetrathiafulvalene electrochromic material or derivatives thereof.
- tungsten oxide e.g., W 2 O 5
- NiO niobium pentoxide
- titanium oxide e.g., TiO 3
- the display panel includes a display unit, e.g., an organic light emitting diode OLED.
- the display unit is a liquid crystal display unit having a pixel electrode, a common electrode and a liquid crystal layer.
- the display panel includes a base substrate 10 , a first thin film transistor T 1 for controlling light transmittance in the first light modulation region R 1 on the base substrate 10 , a second thin film transistor T 2 for driving image display in the first subpixel Sp 1 , an inter-layer dielectric layer ILD on a side of the first thin film transistor T 1 and the second thin film transistor T 2 distal to the base substrate 10 .
- the display panel further includes a third electrode E 3 on a side of the inter-layer dielectric layer ILD distal to the base substrate 10 , an organic light emitting layer EM on a side of the third electrode E 3 distal to the inter-layer dielectric layer ILD, a fourth electrode E 4 on a side of the organic light emitting layer EM distal to the third electrode E 3 .
- the third electrode E 3 is an anode
- the fourth electrode E 4 is a cathode
- the third electrode E 3 is a cathode
- the fourth electrode E 4 is an anode.
- the display panel further includes an encapsulating layer EN on a side of the second electrode E 2 and the fourth electrode E 4 distal to the base substrate 10 .
- the encapsulating layer EN encapsulates the display unit.
- the first thin film transistor T 1 includes a first active layer AL 1 on the base substrate 10 , a gate insulating layer GI on a side of the first active layer AL 1 distal to the base substrate 10 , a first gate electrode G 1 on a side of the gate insulating layer GI distal to the base substrate 10 , a passivation layer PVD on a side of the first gate electrode G 1 distal to the gate insulating layer GI, a first source electrode S 1 and a first drain electrode D 1 on a side of the passivation layer PVD distal to the base substrate 10 .
- the first electrode E 1 of the first light modulator M 1 is coupled to the first source electrode S 1 through a via extending through the inter-layer dielectric layer ILD.
- the first drain electrode D 1 is coupled to ground G through a via extending through the passivation layer PVD.
- the first gate electrode G 1 is coupled to a first gate line GL 1 .
- the first drain electrode D 1 is coupled to ground (e.g., a ground voltage or a fixed voltage).
- the second thin film transistor T 2 includes a second active layer AL 2 on the base substrate 10 , a gate insulating layer GI on a side of the second active layer AL 2 distal to the base substrate 10 , a second gate electrode G 2 on a side of the gate insulating layer GI distal to the base substrate 10 , a passivation layer PVD on a side of the second gate electrode G 2 distal to the gate insulating layer GL a second source electrode S 2 and a second drain electrode D 2 on a side of the passivation layer PVD distal to the base substrate 10 .
- the second gate electrode G 2 is coupled to the first gate line GL 1 .
- the second source electrode S 2 is coupled to a first data line DL 1 .
- the second drain electrode D 2 is coupled to the third electrode E 3 in the first subpixel Sp 1 .
- the first source electrode S 1 of the first thin film transistor T 1 is coupled to the second active layer AL 2 of the second thin film transistor T 2 .
- a first data signal provided to the second source electrode S 2 passes through to the second drain electrode D 2 of the second thin film transistor T 2 and the first source electrode S 1 of the first thin film transistor T 1 .
- the first data signal passed to the second drain electrode is used for driving image display in the first subpixel Sp 1 .
- the first data signal passed to the first source electrode S 1 is used for controlling light transmittance in the first light modulation region R 1 .
- the third electrode E 3 in the first subpixel Sp 1 and the first electrode E 1 in the first light modulation region R 1 are in a same layer and made of a same electrode material.
- the fourth electrode E 4 in the first subpixel Sp 1 and the second electrode E 2 in the first light modulation region R 1 are in a same layer and made of a same electrode material.
- the term “same layer” refers to the relationship between the layers simultaneously formed in the same step.
- the third electrode E 3 in the first subpixel Sp 1 and the first electrode E 1 in the first light modulation region R 1 are in a same layer when they are formed as a result of one or more steps of a same patterning process performed in a same layer of material.
- the third electrode E 3 in the first subpixel Sp 1 and the first electrode E 1 in the first light modulation region R 1 can be formed in a same layer by simultaneously performing the step of forming the third electrode E 3 in the first subpixel Sp 1 and the step of forming the first electrode E 1 in the first light modulation region R 1 .
- the term “same layer” does not always mean that the thickness of the layer or the height of the layer in a cross-sectional view is the same.
- the first light modulation region R is substantially non-overlapping with the plurality of subpixels in the display panel, e.g., non-overlapping with the first subpixel Sp 1 .
- the first light modulation region R 1 is partially overlapping with one of the plurality of subpixels, e.g., partially overlapping with the first subpixel Sp 1 .
- the first light modulation region R 1 is substantially overlapping with one of the plurality of subpixels. e.g., substantially overlapping with the first subpixel Sp 1 .
- the first subpixel Sp 1 is a subpixel adjacent to the first light modulation region R 1 (see, e.g., FIG. 4 ).
- the first subpixel Sp 1 is a subpixel not adjacent to the first light modulation region R 1 .
- the first subpixel Sp 1 is a subpixel not directly adjacent to the first light modulation region R 1 .
- FIG. 5 is a schematic diagram illustrating a display panel having a light modulation region in some embodiments according to the present disclosure.
- the display panel in some embodiments includes a first light modulation region R 1 surrounding a plurality of subpixels (including a first subpixel Sp 1 in the center).
- the image display in the first subpixel Sp 1 is driven by the first gate line GL 1 and the first data line DLL.
- the display panel includes a first light modulator M 1 in the first light modulation region R 1 .
- Light transmittance in the first light modulation region is controlled by the first gate line GL 1 and the first data line DL 1 .
- the first subpixel Sp 1 is not directly adjacent to the first light modulation region R 1 , e.g., they are separated by one or more subpixels.
- FIG. 6 is a circuit diagram of a circuit for modulating display contrast of a display panel in some embodiments according to the present disclosure.
- the display unit OLED is driven by the first gate line GL 1 and the first data line DL 1 for image display.
- a first gate scanning signal is provided to the first gate line GL 1
- the first thin film transistor T 1 and the second thin film transistor T 2 are turned on.
- a first data signal is provided to the first date line DL 1 .
- the second thin film transistor T 2 is turned on, the first data signal is passed to the display unit OLED, and the display unit OLED emits light.
- the first data signal is passed to the first light modulator M 1 (e.g., the first electrode of the first light modulator M 1 ).
- the first data signal or a signal derived from the first data signal
- the light transmittance of the electrochromic layer in the first light modulator M 1 can be controlled.
- the higher the voltage level applied to the first light modulator M 1 the lower the light transmittance of the electrochromic layer.
- light transmittance in the light modulation region can be controlled using a same gate line and a same data line for driving image display in a subpixel.
- the light modulation region can be maintained substantially transparent.
- the first data signal has a low voltage
- the light transmittance in the light modulation region is lowered.
- the first data signal has a high voltage
- the light modulation region becomes substantially non-transparent.
- the background light ambient light
- the background light is allowed to transmit through the display panel.
- the display panel is a transparent display panel.
- transparent display panel refers to a display panel capable of permitting light incident from a back side of the display panel to pass through at the same time displaying a graphic image.
- the transparent display panel in the context of the present disclosure has a transmittance of at least 20% or more.
- the transparent display panel according to the present disclosure include transparent liquid crystal display panels and transparent organic light emitting diode display panels. Examples of transparent display panels include transparent display panels in a form of a window in a room, a building, an appliance, car windshields, a vehicle head-up display, eye glasses, binoculars, visors, helmets, and so on.
- the display panel is a liquid crystal display panel.
- the display panel is an organic light emitting diode display panel.
- the display panel is an electrophoretic display panel.
- FIG. 7 illustrates light transmittance in the light modulation region when the display panel is in an OFF state.
- the display panel is a transparent display panel.
- the ambient light transmits through the first light modulation region R 1 and the first subpixel Sp 1 .
- the display panel is substantially transparent.
- FIG. 8 illustrates light transmittance in the light modulation region when the display panel is in an ON state.
- the first subpixel Sp 1 emits light when the display panel is in an ON state.
- the first light modulator M 1 in the first light modulation region R 1 is also turned on to modulate the light transmittance in the first light modulation region R 1 .
- the data signal is provided to the first electrode E
- the light transmittance of the electrochromic layer EC is lowered, thereby blocking at least a part of the ambient light from transmitting through the display panel.
- the background light in the first light modulation region R 1 is reduced when the first subpixel Sp 1 is configured to emit light for image display.
- the display contrast of the display panel in its image display region is significantly enhanced.
- the first thin film transistor T 1 is a leaky transistor.
- the first thin film transistor T 1 is tinned on to allow the application of the data signal to the first electrode E 1 , a leakage current between the first source electrode S 1 and the first drain electrode D 1 of the first thin film transistor T 1 lowers the voltage level of the first data signal.
- a voltage level of the voltage signal actually applied to the first electrode E 1 is lower than the voltage level of the first data signal.
- the term “gray level” refers to an amplitude level of a color component or a black-and-white component, e.g., between black and white or between color levels.
- the amplitude levels include 256 gray levels (e.g., from 0 to 255).
- the leaky thin film transistor can be designed to have a leakage current that substantially minimizing a difference between a gray level of the light modulation region and a gray level of the first subpixel upon application of a first data signal through the first data line.
- FIGS. 9 to 11 illustrate gray levels of the light modulation region and the first subpixel upon application of a first data signal in a display panel in some embodiments according to the present disclosure.
- the leakage current of the leaky thin film transistor in FIG. 10 is one that most effectively minimizes the difference between the gray levels of the light modulation region and the first subpixel.
- the leakage current of the leaky thin film transistor may be varied by varying the aspect ratio of the channel region of the thin film transistor.
- the present disclosure provides a method of modulating display contrast of the display panel.
- the method includes providing a first gate scanning signal to the first gate line and a first data signal to the first date line for driving image display in the first subpixel of the plurality of subpixels; and modulating the light transmittance in the light modulation region using the first gate scanning signal and the first data signal.
- the step of modulating the light transmittance includes lowering the light transmittance in the light modulation region by applying to the first electrode the first data signal or a voltage signal derived from the first data signal.
- the step of applying to the first electrode the voltage signal derived from the first data signal includes lowering the voltage level of the first data signal applied to the first electrode.
- the step of lowering the voltage level of the first data signal is performed by a leaky thin film transistor.
- the method further includes providing the first gate scanning signal to the first gate line to turn on the second thin film transistor thereby allowing the first data signal to pass from the source electrode of the second thin film transistor to the drain electrode of the second thin film transistor for driving image display in the first subpixel.
- the method further includes providing the first gate scanning signal to the first gate line to turn on the first thin film transistor thereby allowing the first data signal to pass from the source electrode of the first thin film transistor to the drain electrode of the first thin film transistor.
- the present disclosure provides a method of fabricating a display panel having an array of a plurality of subpixels.
- the method includes forming a plurality of light modulators configured to modulate display contrast of the display panel, each of the plurality of light modulators is formed in a light modulation region configured to allow light transmitting through the display panel; and forming a plurality of gate lines and forming a plurality of data lines for driving image display in the plurality of subpixels.
- the plurality of light modulators, the plurality of gate lines, and the plurality of data lines are formed so that light transmittance in the light modulation region is controlled by a first gate line and a first data line for driving image display in a first subpixel of the plurality of subpixels.
- each of the plurality of light modulators is formed to comprise a first electrode, an electrochromic layer on the first electrode, and a second electrode on a side of the electrochromic layer distal to the first electrode.
- the method further includes forming a first thin film transistor in the light modulation region having a gate electrode coupled to the first gate line, a source electrode coupled to the first electrode, and a drain electrode coupled to ground.
- the method further includes forming the first thin film transistor as a leaky thin film transistor.
- the first thin film transistor is formed to have a leakage current such that a difference between a gray level of the light modulation region and a gray level of the first subpixel upon application of a first data signal through the first data line are substantially minimized over a range of data voltage levels.
- the method further includes forming a second thin film transistor in the first subpixel having a gate electrode coupled to the first gate line, a source electrode coupled to the first data line, and a drain electrode coupled to a third electrode in the first subpixel.
- the present disclosure provides a display apparatus including a display panel described herein or fabricated by a method described herein.
- appropriate display apparatuses include, but are not limited to, an electronic paper, a mobile phone, a tablet computer, a television, a monitor, a notebook computer, a digital album, a GPS, etc.
Abstract
Description
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CN110634936B (en) * | 2019-10-29 | 2021-12-14 | 云谷(固安)科技有限公司 | Organic light emitting display panel and display device |
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AU2017416078A1 (en) | 2019-06-27 |
JP2021511526A (en) | 2021-05-06 |
CN110121783A (en) | 2019-08-13 |
MX2018014782A (en) | 2019-08-14 |
CN110121783B (en) | 2023-11-28 |
KR20190070894A (en) | 2019-06-21 |
AU2017416078B2 (en) | 2020-01-02 |
US20210223655A1 (en) | 2021-07-22 |
BR112018075590B1 (en) | 2023-03-28 |
EP3721476A1 (en) | 2020-10-14 |
RU2748961C1 (en) | 2021-06-02 |
WO2019109315A1 (en) | 2019-06-13 |
KR102138207B1 (en) | 2020-07-27 |
EP3721476A4 (en) | 2021-12-08 |
BR112018075590A2 (en) | 2019-07-09 |
JP7128747B2 (en) | 2022-08-31 |
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